What is Quantized Hall conductance?

It is a discrete transverse electrical conductance observed in the quantum Hall effect, defined by quantum physics constants and observed under strong magnetic fields and low temperatures.

Why convert Quantized Hall conductance to ampere per volt?

To translate quantum-standard conductance into the conventional SI unit for practical use in electrical measurements and device characterization.

Can I use this conversion for general circuit analysis?

Yes, but be mindful that Quantized Hall conductance values are from unique quantum conditions and differ greatly in scale from typical circuit conductances.

How to Convert from Quantized Hall Conductance to Ampere/Volt [A/V]

Learn how to convert electrical conductance values from the quantum-defined unit Quantized Hall conductance to the conventional SI unit ampere per volt (A/V) using a precise conversion factor.

Quantized Hall conductance

Ampere/volt [A/V]

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Quantized Hall conductance to Ampere/volt [A/V] Conversion Table

Quantized Hall conductance	Ampere/volt [A/V]

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Quantized Hall conductance to Ampere/volt [A/V] Conversion Table
Quantized Hall conductance	Ampere/volt [A/V]

Explore More Electric Conductance Units Converter

What Is This Tool?

This converter transforms measurements of Quantized Hall conductance, a discrete quantum electrical conductance, into the SI standard unit ampere per volt (A/V), enabling practical use in electrical and electronic applications.

How to Use This Tool?

Enter the value in Quantized Hall conductance you wish to convert.
Select the conversion direction to ampere per volt (A/V).
Click convert to get the equivalent conductance in A/V.
Use the result for your electrical measurement or device characterization needs.

Key Features

Converts from the quantum-defined Quantized Hall conductance unit to ampere per volt (A/V).
Based on the precise conversion rate reflecting fundamental physical constants.
Supports use in quantum metrology and everyday electrical engineering tasks.
Browser-based interface for easy, instant unit conversion.

Examples

1 Quantized Hall conductance equals 0.0000387405 A/V.
5 Quantized Hall conductance converts to 0.000193703 A/V by multiplying 5 by 0.0000387405.

Common Use Cases

Standardizing electrical resistance and conductance in metrology laboratories.
Researching quantum Hall effects and related condensed matter physics phenomena.
Characterizing transistors and sensor devices in electronics and electrochemistry labs.

Tips & Best Practices

Ensure input values correspond to valid experimental conditions such as low temperatures and strong magnetic fields.
Use this conversion to compare quantum conductance measurements with conventional electrical units.
Apply converted values carefully in device testing and circuit design for accurate characterization.

Limitations

Quantized Hall conductance applies under specialized physical conditions, limiting direct everyday use.
The conversion factor represents a very small quantum-scale conductance differing significantly from typical circuit values.

Frequently Asked Questions

What is Quantized Hall conductance?: It is a discrete transverse electrical conductance observed in the quantum Hall effect, defined by quantum physics constants and observed under strong magnetic fields and low temperatures.
Why convert Quantized Hall conductance to ampere per volt?: To translate quantum-standard conductance into the conventional SI unit for practical use in electrical measurements and device characterization.
Can I use this conversion for general circuit analysis?: Yes, but be mindful that Quantized Hall conductance values are from unique quantum conditions and differ greatly in scale from typical circuit conductances.

Key Terminology

Quantized Hall conductance: A discrete electrical conductance found in the quantum Hall effect, characterized by fundamental constants and observed in two-dimensional electron systems under specific conditions.
Ampere per volt (A/V): The SI unit of electrical conductance, equal to Siemens (S), representing the current flow per unit voltage.
Quantum Hall effect: A physical phenomenon resulting in quantized electrical conductance observed in two-dimensional electron systems exposed to strong magnetic fields at low temperatures.

Quick Knowledge Check

What physical phenomenon defines Quantized Hall conductance?

Electromagnetic induction

Quantum Hall effect

Photoelectric effect

What SI unit corresponds to ampere per volt?

Ohm (Ω)

Siemens (S)

Henry (H)

In what conditions is Quantized Hall conductance typically observed?

High temperature and weak magnetic fields

Low temperature and strong magnetic fields

Room temperature and no magnetic field

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